Privacy-protective data transfer and storage

ABSTRACT

A method is performed at a computer system having one or more processors and memory storing one or more programs executed by the one or more processors. The method includes receiving a first data transmission from a first client system, where the first data transmission including a first document, the first document having one or more portions that are marked as private; encrypting the marked portions of the first document using a key; and sending a second data transmission to a destination system, where the second data transmission includes a second document, the second document including the encrypted marked portions of the first document and a remainder of the first document that is not marked as private. The key is unavailable to the destination system. The second document is stored at the destination system.

RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.13/403,833, filed Feb. 23, 2012, entitled “Privacy-Protective DataTransfer and Storage,” which claims priority to U.S. Provisional PatentApplication No. 61/474,226, entitled “Privacy-Protective Data Transferand Storage,” filed Apr. 11, 2011, both of which are incorporated byreference herein in their entirety.

This application is related to U.S. patent application Ser. No.14/326,151, entitled “Privacy-Protective Data Transfer,” filed Jul. 8,2014, which is a continuation of U.S. patent application Ser. No.13/403,836, entitled “Privacy-Protective Data Transfer,” filed Feb. 23,2012, now U.S. Pat. No. 8,776,249, both of which are incorporated byreference herein in their entirety.

TECHNICAL FIELD

The disclosed embodiments relate generally to data management. Moreparticularly, the disclosed embodiments relate to data transfer andstorage that protects privacy interests in the data.

BACKGROUND

Data files can be stored remotely at remote third-party sites (orcompany servers) rather than locally. Benefits of remote storage includedata backup and redundancy, and remote access to the particular datafiles by one or more users. A data file to be stored remotely maycontain private or confidential content, and the private content needsto be protected from attacks on the third-party site from without orwithin. To protect the private content, the data file may be transmittedin secure data transmissions between local systems and the third-partysite, and the data file may be encrypted and stored in the encryptedform. However, in such an environment the encryption of the data file istypically handled by the third-party site, and the decryption keys areheld by the third-party site. Thus, the privacy of the data file isstill vulnerable to compromise by malicious operators of the third-partysite or an external attack on the third-party site. Alternatively, eachuser of a data file with private content can encrypt the file prior totransmitting it to the third party site, but this requires each user tohave the appropriate key or keys for encrypting the document each timeit is transmitted to others and for decrypting the data file when it isaccessed. This arrangement is inconvenient due to the need of multipleusers to manage keys and also insecure due to the sharing of keys.

SUMMARY

According to some embodiments, a method is performed at a computersystem having one or more processors and memory storing one or moreprograms executed by the one or more processors. The method includesreceiving a first data transmission from a first client system, thefirst data transmission including a first document, the first documenthaving one or more portions that are marked as private, encrypting themarked portions of the first document using a key, and sending a seconddata transmission to a destination system, the second data transmissionincluding a second document, the second document including the encryptedmarked portions of the first document and a remainder of the firstdocument that is not marked as private. The key is unavailable to thedestination system. The second document is stored at the destinationsystem.

According to some embodiments, a server system includes one or moreprocessing units, and memory storing one or more programs to be executedby the one or more processing units. The one or more programs includeinstructions for receiving a first data transmission from a first clientsystem, the first data transmission including a first document, thefirst document having one or more portions that are marked as private,encrypting the marked portions of the first document using a key, andsending a second data transmission to a destination system, the seconddata transmission including a second document, the second documentincluding the encrypted marked portions of the first document and aremainder of the first document that is not marked as private. The keyis unavailable to the destination system. The second document is storedat the destination system.

According to some embodiments, a non-transitory computer readablestorage medium stores one or more programs configured for execution by acomputer. The one or more programs include instructions for receiving afirst data transmission from a first client system, the first datatransmission including a first document, the first document having oneor more portions that are marked as private, encrypting the markedportions of the first document using a key, and sending a second datatransmission to a destination system, the second data transmissionincluding a second document, the second document including the encryptedmarked portions of the first document and a remainder of the firstdocument that is not marked as private. The key is unavailable to thedestination system. The second document is stored at the destinationsystem.

According to some embodiments, a method is performed at a computersystem having one or more processors and memory storing one or moreprograms executed by the one or more processors. The method includesreceiving a document, the document including one or more encryptedportions and an unencrypted remainder, where the document is receivedfrom a client system through an intermediary system, and the encryptedportions are encrypted by the intermediary system. The method alsoincludes indexing the document based on the unencrypted remainder of thedocument.

According to some embodiments, a server system includes one or moreprocessing units, and memory storing one or more programs be executed bythe one or more processing units. The one or more programs includeinstructions for receiving a document, the document including one ormore encrypted portions and an unencrypted remainder, where the documentis received from a client system through an intermediary system, and theencrypted portions are encrypted by the intermediary system. The one ormore programs also include instructions for indexing the document basedon the unencrypted remainder of the document.

According to some embodiments, a non-transitory computer readablestorage medium stores one or more programs configured for execution by acomputer. The one or more programs include instructions for receiving adocument, the document including one or more encrypted portions and anunencrypted remainder, where the document is received from a clientsystem through an intermediary system, and the encrypted portions areencrypted by the intermediary system. The one or more programs alsoinclude instructions for indexing the document based on the unencryptedremainder of the document.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram illustrating a privacy-protective datatransfer and storage system, according to some embodiments.

FIG. 2 is a block diagram illustrating a distributed computer system,according to some embodiments.

FIG. 3 is a block diagram illustrating a client system, according tosome embodiments.

FIG. 4 is block diagram illustrating a server system, according to someembodiments.

FIG. 5 is a block diagram illustrating a privacy proxy system, accordingto some embodiments.

FIGS. 6A-6B are screenshot diagrams illustrating a displayed documentwith private content, according to some embodiments.

FIGS. 7A-7B are flow diagrams illustrating a process for transmitting adocument to a destination system for storage, according to someembodiments.

FIGS. 8A-8B are flow diagrams illustrating a process for transmitting adocument, according to some embodiments.

FIG. 9 is a flow diagram illustrating a process for indexing a documentfor searching, according to some embodiments.

DESCRIPTION OF EMBODIMENTS

Reference will now be made in detail to embodiments, examples of whichare illustrated in the accompanying drawings. In the following detaileddescription, numerous specific details are set forth in order to providea thorough understanding of the present invention. However, it will beapparent to one of ordinary skill in the art that the present inventionmay be practiced without these specific details. In other instances,well-known methods, procedures, components, circuits, and networks havenot been described in detail so as not to unnecessarily obscure aspectsof the embodiments.

It will also be understood that, although the terms first, second, etc.may be used herein to describe various elements, these elements shouldnot be limited by these terms. These terms are only used to distinguishone element from another. For example, a first contact could be termed asecond contact, and, similarly, a second contact could be termed a firstcontact, without departing from the scope of the present invention. Thefirst contact and the second contact are both contacts, but they are notthe same contact.

The terminology used in the description of the invention herein is forthe purpose of describing particular embodiments only and is notintended to be limiting of the invention. As used in the description ofthe invention and the appended claims, the singular forms “a,” “an,” and“the” are intended to include the plural forms as well, unless thecontext clearly indicates otherwise. It will also be understood that theterm “and/or” as used herein refers to and encompasses any and allpossible combinations of one or more of the associated listed items. Itwill be further understood that the terms “comprises” and/or“comprising,” when used in this specification, specify the presence ofstated features, integers, steps, operations, elements, and/orcomponents, but do not preclude the presence or addition of one or moreother features, integers, steps, operations, elements, components,and/or groups thereof.

As used herein, the term “if” may be construed to mean “when” or “upon”or “in response to determining” or “in response to detecting,” dependingon the context. Similarly, the phrase “if it is determined” or “if (astated condition or event) is detected” may be construed to mean “upondetermining” or “in response to determining” or “upon detecting (thestated condition or event)” or “in response to detecting (the statedcondition or event),” depending on the context.

FIG. 1 is a block diagram illustrating a privacy-protective datatransfer and storage system 100, according to some embodiments. A datafile 111 is located at a client system 102. In some embodiments, thedata file 111 is an electronic document of any suitable type, such as aplain text document, MICROSOFT WORD document, Portable Document Format(PDF) document, MICROSOFT EXCEL spreadsheet, MICROSOFT POWERPOINTpresentation, email message, and so forth. In some other embodiments,the data file 111 is an electronic document or an image or graphicsfile, video file, or audio file. The contents of the data file 111 mayinclude text, graphics, images, audio, video, or any combinationthereof. For convenience and ease of understanding, hereinafter a datafile may also be referred to as a document.

The client system 102 (sometimes called a “client computer,” or “clientdevice” or “client”) may be any computer or device able to process adata file or document (e.g., document 111) and transmit (or “send”) andreceive data files or documents to other systems. Examples of clientsystems 102 include, without limitation, desktop computers, laptopcomputers, tablet computers, mobile devices such as mobile phones,personal digital assistants, set-top boxes, or any combination of theabove.

Among the contents of a document 111 are one or more portions (or theentirety) of the contents that are demarcated or otherwise marked ordesignated as private or confidential, or more generally, demarcated orotherwise marked or designated as requiring a more restrictive level ofsecurity and/or privacy (hereinafter collectively referred to as “markedas private”). For example, a document 111 may have one or more portionsof its contents (e.g., certain text portions, certain graphics orimages, etc.) that includes sensitive information or for which viewingand/or editing is restricted to a more limited set of users than theremainder of the contents of the document 111. The portions for whichmore restrictive viewing or editing rights are required may be marked asprivate.

A document 111 is generated at a client system 102 by an application104. A user of client system 102 may use the application 104 to create anew document and to demarcate or otherwise mark or designate one or morediscrete portions of the contents of the created document as private(hereinafter collectively referred to as “mark as private”). A user mayalso use the application 104 to mark discrete portions of the contentsof a document created outside of the application 104 as private, and theapplication 104 generates a version of the document that has the privateportions marked. Whether a document 111 was initially created within theapplication 104 or without, a document 111 that is modified from withinthe application 104 may include one or more portions that are marked asprivate. In some embodiments, the portions that are marked as privateare marked as such in accordance with user input (e.g., a user selectingparticular text, images, and/or other content in a document and thenactivating a command in the application 104 to mark the selectedportion(s) as private).

The document 111 is sent to a privacy proxy system 106 in a datatransmission 110. In some embodiments, the data transmission 110 is anencrypted or secure transmission. For example, data transmission 110 maybe sent in accordance with the Secure Sockets Layer (SSL) or theTransport Layer Security (TLS) protocol. At the privacy proxy system104, when the encrypted data transmission 110 is decrypted to access thedocument 111, the marked portions in the document 111 are unencrypted.In some other embodiments, the data transmission 110 is an unencryptedtransmission; the marked portions in the document 111 are unencryptedduring the transmission and at receipt by the privacy proxy system 106.

The privacy proxy system 106 may be any computer or device (or a systemof multiple computers/devices, e.g., multiple servers) able to process adata file or document and transmit (or “send”) and receive data files ordocuments to and from other systems. Examples of a privacy proxy system106 include, without limitation, a server computer system. In someembodiments, the privacy proxy system 106 is implemented as a web proxyserver system, with additional functionality related to the processingof documents with portions marked as private (e.g., document contentencryption and decryption, encryption key and decryption key management,etc.).

After receiving the data transmission 110 and extracting the document111 from the data transmission 110, the privacy proxy system 106encrypts the marked portions of the document 111. The unmarked portionsof the document 111 remain unencrypted. Thus, the result of theencryption is a data file or document 113 that includes the markedportions, which are encrypted, and the unmarked portions, which remainunencrypted, of the document 111. For ease of understanding, data fileor document 113 may be referred to as a partially encrypted data file ordocument 113. In some embodiments, the privacy proxy system 106 encryptsthe marked portions of the document 111 using an appropriate key fromone or more encryption and/or decryption keys 108 in accordance with anysuitable key-based encryption algorithm.

The partially encrypted document 113 is sent, through network(s) 112, ina data transmission 116 to a server system 114. In some embodiments, thedata transmission 116 is an encrypted or otherwise secure transmission.For example, data transmission 116 may be sent using the Secure SocketsLayer (SSL) or the Transport Layer Security (TLS) protocol.

In some embodiments, a user may be notified or choose to send documentsto the server system 114 through the privacy proxy system 106. In someembodiments, when the privacy proxy system 106 is bypassed, the sentdocuments are not encrypted by the privacy proxy system 106 as describedabove, and alternative security and privacy measures may be used inplace of the privacy proxy system 106 (e.g., encryption of the documentat the client).

Server system 114 may be any computer or device (or a system of multiplecomputers/devices) able to process a data file or document and transmit(or “send”) and receive data files or documents to other systems.Examples of server system 116 include, without limitation, a servercomputer system.

The server system 114 receives the data transmission 116 and extractsthe partially encrypted document 113 from the data transmission 116. Theserver system 114 is not provided the appropriate key(s) 108 fordecrypting the encrypted marked portions of the partially encrypteddocument 113. Thus, the server system 114 does not decrypt the encryptedmarked portions of the partially encrypted document 113. Whateverprocessing server system 114 performs on the partially encrypteddocument 113, the processing is performed while the marked portionsremain encrypted. The server system 114 stores the encrypted document113 in memory or some storage medium (e.g., non-volatile storage, suchas a hard disk drive).

In some embodiments, the server system 114 indexes the encrypteddocument 113 (e.g., for searching). The partially encrypted document 113is indexed based on the unencrypted unmarked portions, as the markedportions remain encrypted.

The server system 114 may send the partially encrypted document 113 to aclient system 102 (e.g., in response to a request from the client system102 for the partially encrypted document 113, with the request from theclient system 102 corresponding to a request made by a user for theoriginal document 111 corresponding to the partially encrypted document113) through the privacy proxy system 106. The server system 114 sendsthe partially encrypted document 113, through network(s) 112, in a datatransmission 118. The data transmission 118 is sent to the privacy proxysystem 106. In some embodiments, the data transmission 118 is anencrypted or otherwise secure transmission. For example, datatransmission 118 may be sent using the Secure Sockets Layer (SSL) or theTransport Layer Security (TLS) protocol.

The privacy proxy system 106 receives the data transmission 118 andextracts the partially encrypted document 113 from the data transmission118. Using the encryption/decryption key(s) 108, the privacy proxysystem 106 decrypts the encrypted marked portions of encrypted document113 to reconstitute the document 111. The document 111 is sent in a datatransmission 120 to the client system 102. In some embodiments, the datatransmission 120 is an encrypted or otherwise secure transmission. Forexample, data transmission 120 may be sent using the Secure SocketsLayer (SSL) or the Transport Layer Security (TLS) protocol.

The client system 102 receives the data transmission 120 and extractsthe document 111 from the data transmission 120. The document 111 may bedisplayed in the application 104.

FIG. 2 is a block diagram illustrating a distributed computer system200, according to some embodiments. In some embodiments, the distributedcomputer system 200 is an implementation of the privacy-protective datatransfer and storage system 100 shown in FIG. 1. The distributed system200 includes multiple client systems 102-1, 102-2, thru 102-M, andprivacy proxy system 106. In some embodiments, the clients 102 and theprivacy proxy system 106 are components of a private (e.g., a corporateor enterprise) network environment 201. The client systems 102 and theprivacy proxy system 106 may be interconnected by one or morecommunication networks 204 (e.g., local area networks (LAN), virtualprivate networking (VPN), etc.) within the private network environment201.

The private network environment 201 may transmit data to server system114, which includes servers 114-1, 114-2, thru 114-N. The networkenvironment 201 may be interconnected with the servers 114 through oneor more network(s) 112.

In some embodiments, a client system 102 (e.g., client 102-1) includesan application 104 configured to enable the user to mark portions of adocument as private. For some applications 104, the capability to enablethe user to mark portions of a document as private is provided throughthe addition of a plug-in 202 to the application 104. Alternatively, theapplication 104 may have native support for marking of portions of adocument as private (e.g., the application was designed and programmedto support the feature from the start).

The privacy proxy system 106 includes the encryption/decryption key(s)108 and a document encryption/decryption module or application 206. Theencryption/decryption module 206 uses the key(s) 108 to encrypt ordecrypt marked portions in documents. In some embodiments, the privacyproxy system 106 is a web proxy server system in the network environment201 (e.g., a content filtering web proxy for a corporate network). Insome embodiments, the key(s) 108 are kept within the private networkenvironment 201 and not provided to entities outside of the privatenetwork environment 201, such as server system 114. By keeping thekey(s) 108 within the private network environment 201, the privacy ofthe marked portions of a document stored at the server system 114 isless likely to be compromised by operators of the server system 114 orby attacks on the server system 114. In some embodiments, the privacyproxy system 106 also includes a key management module (not shown) forautomatically, and/or with administrator intervention, managingencryption and decryption keys.

In some embodiments, a document 111 and the corresponding partiallyencrypted document 113 stored at the server system 114 may be accessibleto multiple users in the private network environment 201 but only asubset of those multiple users have rights to read and/or edit themarked portions. When the partially encrypted document 113 istransmitted from the server system 114 to the network environment 201,how the partially encrypted document 113 is processed by the privacyproxy system 106 and presented to a user varies with which user isrequesting the corresponding original document 111.

For example, in some embodiments, if a user with full rights to theentire document makes a request for the document 111 at a client 102,the privacy proxy system 106, after receiving the partially encrypteddocument 113, decrypts the marked portions of the partially encrypteddocument 113 (i.e., reconstituting the document 111) and sends thedocument 111 to the client 102. The application 104, recognizing thatthe user has full rights to the document (e.g., by comparing the user'slogin credentials at the client 102 or other authentication credentialsto the document's rights metadata), displays the entire document in theclear to the user and enables editing by the user. If the user does nothave reading rights to the marked portions, the privacy proxy system 106may omit the decryption of the partially encrypted document 113 and sendthe partially encrypted document 113 to the client 102. The application104 displays the unmarked portions of the partially encrypted document113 in the clear but the encrypted marked portions are replaced withother displayed content, such as a message or symbol indicating that themarked portions of the document are encrypted. Alternatively, theprivacy proxy system 106 decrypts the partially encrypted document 113but the application 104 displays the unmarked portions in the clear anddisplays other content in place of the decrypted marked portions, suchas a message or symbol indicating that the marked portions of thedocument are private.

In some embodiments, the privacy proxy system 106 decrypts the partiallyencrypted document 113 regardless of whether the requesting user hasrights to the marked portions, and the application 104 is responsiblefor presenting the reconstituted document 111 in accordance with therights that the requesting user has. In some embodiments, the privacyproxy system 106 decrypts the partially encrypted document 113 inaccordance with the requesting user's rights level; the partiallyencrypted document is not decrypted for a user who does not have therights to read the marked portions. Examples of how a marked portion ofa document is presented to a user at a client 102 are further describedbelow with reference to FIGS. 6A and 6B.

In some other embodiments, the privacy proxy system 106 decrypts thepartially encrypted document 113 if the proper decryption key isavailable at the privacy proxy system 106, and does not decrypt thepartially encrypted document 113 if the proper decryption key is notavailable, and the reconstituted document 111 may be presented to theuser at the client 102 in a manner described below with reference toFIGS. 6A-6B. Whether the proper decryption key is available at theprivacy proxy system 106 or not is based on management of decryptionkeys by key management systems implemented for the private networkenvironment 201 (e.g., at the privacy proxy system 106).

In some further embodiments, the decryption of the partially encrypteddocument 113 corresponding to the original document 111, or not, basedon availability of the proper decryption key described above isirrespective of rights or permissions associated with the originaldocument 111 and is transparent to the user. In other words, managementof document rights or permissions (e.g., read rights, edit rights, fullrights, and the like) and encryption/decryption of documents are handledseparately. For example, a user who has no read (or higher) rights tothe document 111 cannot request it (e.g., attempts by the user torequest the document 111 are denied), and the partially encrypteddocument 113 corresponding to the document 111 is not sent from theserver 114 to the privacy proxy system 116, whether or not the properkey is available. If the user does have read or higher rights to thedocument 111 and makes a request for it, the partially encrypteddocument 113 corresponding to the document 111 is sent from the server114 to the privacy proxy system 116, but whether the privacy proxysystem 116 decrypts the partially encrypted document 113 depends on theavailability of the proper key; the user's rights level is irrelevant tothe decision to decrypt or not.

FIG. 3 is a block diagram illustrating a client system 102, according tosome embodiments. The client system 102 typically includes one or moreprocessing units (CPU's) 302, one or more network or othercommunications interfaces 308, memory 304, and one or more communicationbuses 310 for interconnecting these components. The client system 102includes a user interface 306. The user interface 306 includes a displaydevice 303 and optionally includes an input means such as a keyboard,mouse, or other input buttons 305. Alternatively or in addition thedisplay device 303 includes a touch sensitive surface (not shown), inwhich case the display device 303 is a touch sensitive display. Inclient systems that have a touch sensitive display, a physical keyboardis optional (e.g., a soft keyboard may be displayed when keyboard entryis needed). Furthermore, some client systems use a microphone and voicerecognition to supplement or replace the keyboard.

Memory 304 includes high-speed random access memory, such as DRAM, SRAM,DDR RAM or other random access solid state memory devices; and mayinclude non-volatile memory, such as one or more magnetic disk storagedevices, optical disk storage devices, flash memory devices, or othernon-volatile solid state storage devices. Memory 304 may optionallyinclude one or more storage devices remotely located from the CPU(s)302. Memory 304, or alternately the non-volatile memory device(s) withinmemory 304, comprises a non-transitory computer readable storage medium.In some embodiments, memory 304 or the computer readable storage mediumof memory 304 stores the following programs, modules and datastructures, or a subset thereof:

-   -   an operating system 312 that includes procedures for handling        various basic system services and for performing hardware        dependent tasks;    -   a network communication module 314 that is used for connecting        the client system 102 to other computers via the one or more        communication network interfaces 308 (wired or wireless) and one        or more communication networks, such as the Internet, other wide        area networks, local area networks, metropolitan area networks,        and so on;    -   an online security module 316 for implementing, in conjunction        with network communication module 314, secure data transmission        and receipt (e.g., data transmission and receipt in accordance        with the SSL or TLS protocol);    -   one or more client application modules 104 for creating,        modifying, and presenting content (e.g., documents); for marking        one or more portions, or the whole, of documents as private in        accordance with user input; and presenting documents with marked        portions differently in accordance with the requesting user's        rights to the document and to the marked portions;    -   optionally, a privacy module 318, within a client application        104, for implementing functionality related to marking one or        more portions, or the whole, of documents as private in        accordance with user input; and presenting documents with marked        portions differently in accordance with the requesting user's        rights to the document and to the marked portions; and    -   content 320, such as a document 320-1, which includes one or        more marked portions 322, optionally one or more unmarked        portions 324, and rights metadata 326 that defines who has what        rights (e.g., reading rights, editing rights) to the marked        portions 322 and the unmarked portions 324.

The client application modules 104 may be standalone applications storedin the memory 304 or online applications (e.g., web application 418,FIG. 4) whose instructions are downloaded from a server system (e.g.,server system 114) and executed in a web browser application at theclient system 102.

The rights metadata 326 for a document 320-1 may be set by the creatorof the document 320-1 or another user with full rights to the document320-1. In some embodiments, the rights metadata 326 may be set ormodified from within the application 104.

FIG. 4 is a block diagram illustrating a server system 114, according tosome embodiments. The server system 114 typically includes one or moreprocessing units (CPU's) 402, one or more network or othercommunications interfaces 408, memory 404, and one or more communicationbuses 410 for interconnecting these components.

Memory 404 includes high-speed random access memory, such as DRAM, SRAM,DDR RAM or other random access solid state memory devices; and mayinclude non-volatile memory, such as one or more magnetic disk storagedevices, optical disk storage devices, flash memory devices, or othernon-volatile solid state storage devices. Memory 404 may optionallyinclude one or more storage devices remotely located from the CPU(s)402. Memory 404, or alternately the non-volatile memory device(s) withinmemory 404, comprises a non-transitory computer readable storage medium.In some embodiments, memory 404 or the computer readable storage mediumof memory 404 stores the following programs, modules and datastructures, or a subset thereof:

-   -   an operating system 412 that includes procedures for handling        various basic system services and for performing hardware        dependent tasks;    -   a network communication module 414 that is used for connecting        the server system 114 to other computers via the one or more        communication network interfaces 408 (wired or wireless) and one        or more communication networks, such as the Internet, other wide        area networks, local area networks, metropolitan area networks,        and so on;    -   an online security module 416 for implementing, in conjunction        with network communication module 414, secure data transmission        and receipt (e.g., data transmission and receipt in accordance        with the SSL or TLS protocol);    -   one or more web applications 418, which may be sent to a client        system (e.g., client system 102) for execution as an application        104 at the client system, for creating, modifying, and        presenting content (e.g., documents); for marking one or more        portions, or the whole, of documents as private in accordance        with user input; and presenting documents with marked portions        differently in accordance with the requesting user's rights to        the document and to the marked portions;    -   optionally, a privacy module 420, within a web application 418,        which may be sent to the client system (e.g., client system 102)        for execution as privacy module 318 in conjunction with the        execution of a web application 418, for implementing        functionality related to marking one or more portions, or the        whole, of documents as private in accordance with user input;        and presenting documents with marked portions differently in        accordance with the requesting user's rights to the document and        to the marked portions;    -   a search module 422 for indexing content 424 for searching and        performing searches on content 424;    -   content 424 stored at the server system 114, such as an        encrypted document 424-1, corresponding to document 320-1, which        includes one or more encrypted marked portions 426, optionally        one or more unmarked portions 324, and rights metadata 326 that        defines who has what rights (e.g., reading rights, editing        rights) to the marked portions 322 and the unmarked portions        324; and    -   search index 428 that includes an index of content 424 for        searching.

FIG. 5 is a block diagram illustrating a privacy proxy system 106,according to some embodiments. The privacy proxy system 106 typicallyincludes one or more processing units (CPU's) 502, one or more networkor other communications interfaces 508, memory 504, and one or morecommunication buses 410 for interconnecting these components.

Memory 504 includes high-speed random access memory, such as DRAM, SRAM,DDR RAM or other random access solid state memory devices; and mayinclude non-volatile memory, such as one or more magnetic disk storagedevices, optical disk storage devices, flash memory devices, or othernon-volatile solid state storage devices. Memory 504 may optionallyinclude one or more storage devices remotely located from the CPU(s)502. Memory 504, or alternately the non-volatile memory device(s) withinmemory 504, comprises a non-transitory computer readable storage medium.In some embodiments, memory 504 or the computer readable storage mediumof memory 504 stores the following programs, modules and datastructures, or a subset thereof:

-   -   an operating system 512 that includes procedures for handling        various basic system services and for performing hardware        dependent tasks;    -   a network communication module 514 that is used for connecting        the privacy proxy system 106 to other computers via the one or        more communication network interfaces 508 (wired or wireless)        and one or more communication networks, such as the Internet,        other wide area networks, local area networks, metropolitan area        networks, and so on;    -   an online security module 516 for implementing, in conjunction        with network communication module 514, secure data transmission        and receipt (e.g., data transmission and receipt in accordance        with the SSL or TLS protocol);    -   one or more encryption/decryption key(s) 108 used in the        encryption or decryption of content, such as documents;    -   document encryption/decryption module 206 for, in conjunction        with key(s) 108, encrypting or decrypting documents; and    -   key management module 518 for management of key(s) 108 (e.g.,        creation or deletion of key(s) 108, defining rights to access        the key(s) 108, etc.).

In some embodiments, the management of the key(s) 108 takes place at theprivacy proxy system 106. When the privacy proxy system 106 and theclients 102 are within a private network environment 201, anadministrator within the private network environment 201 may use the keymanagement module 518 to manage the key(s) 108. This keeps the keymanagement within the private network environment, and theresponsibility for managing the key(s) 108 remain with the owners of thedocuments to be encrypted.

FIGS. 3-5 are intended more as functional descriptions of the variousfeatures which may be present in a set of computer systems than as astructural schematic of the embodiments described herein. In practice,and as recognized by those of ordinary skill in the art, items shownseparately could be combined and some items could be separated. Forexample, some items shown separately in these figures could beimplemented on single servers and single items could be implemented byone or more servers. The actual number of systems used to implement aprivacy proxy and how features are allocated among them will vary fromone implementation to another.

Each of the methods described herein with respect to FIGS. 7-10 may begoverned by instructions that are stored in a non-transitory computerreadable storage medium and that are executed by one or more processorsof one or more servers or clients. The above identified modules orprograms (i.e., sets of instructions) need not be implemented asseparate software programs, procedures or modules, and thus varioussubsets of these modules may be combined or otherwise re-arranged invarious embodiments. Each of the operations shown in FIGS. 7-10,described below, may correspond to instructions stored in a computermemory or non-transitory computer readable storage medium.

FIGS. 6A and 6B are diagrams illustrating a displayed document 600 withprivate content, according to some embodiments. As described above, adocument (e.g., document 111) may be accessible to multiple users, butonly a subset of those users may have rights (e.g., to read and/or edit)portions of the document that are marked as private. Alternatively, aproper key for decrypting a partially encrypted document correspondingto an original document may be or may not be available. When a documentis presented to a user at a client device 102, the marked privateportions may be presented differently based on the rights of the user oron key availability.

The document 600 includes unmarked content portions 602, 606 and amarked content portion 604. The document 600 may be created orgenerated, modified, and viewed in an application 104 in a client device102 and sent, through the privacy proxy system 106, to the server system114 for storage. The privacy proxy system 106 encrypts the markedportion 604 before sending the document 600 to the server system 114.While stored at the server system 114, the encrypted marked portion 604remains encrypted (e.g., because the key needed to decrypt the markedportion 604 is not available to the server system 114). A user at aclient device 102 may make a request for the document 600, and inresponse the document 600 is sent by the server system 114 to theprivacy proxy system 106.

In some embodiments, in response to the request for the document 600,the privacy proxy system 106 decrypts the marked portion 604 regardlessof whether the requesting user has the rights to read the marked portion604. The application 104 controls how the marked portions are displayedin accordance with the user's rights. In some other embodiments, inresponse to the request for the document 600, the privacy proxy system106 decrypts the marked portion 604 if the requesting user has therights to read the marked portion 604 and omits the decrypting if therequesting user does not have the right to read the marked portion 604.The application 104 replaces the still-encrypted marked portion 604 withother content. In some further embodiments, the privacy proxy system 106decrypts the marked portion 604 if the proper decryption key isavailable at the privacy proxy system 106, and does not decrypt themarked portion 604 if the proper decryption key is not available at theprivacy proxy system 106.

The privacy proxy system 106 sends the document 600 to the client system102. At the client system 102, the document 600 is displayed to therequesting user in an application 104. The unmarked portions 602, 606are displayed in the clear, as shown in FIGS. 6A and 6B. That is, thecontents of the unmarked portions 602, 606 are displayed in theiroriginal forms. In some embodiments, the marked portion 604 is presenteddifferently in accordance with the rights of the requesting user. If theuser has the right to read the marked portion 604, the marked portion604 is decrypted by the privacy proxy system 106 and presented at theclient system 102 in the clear as user-readable marked portion 604-A, asshown in FIG. 6A. If the user does not have the right to read the markedportion 604, alternative content 604-B is displayed in place of thecontent of the marked portion 604.

In some other embodiments, the marked portion 604 is decrypted if theproper decryption key is available and the decrypted marked portion 604is displayed in the clear as user-readable marked portion 604-A. If theproper decryption key is not available, the marked portion 604 is notdecrypted and alternative content 604-B is displayed in place of thecontent of the marked portion 604.

In some embodiments, the alternative content 604-B is any of: black barsobscuring the marked portion (e.g., as in a redacted document), agraphic (e.g., a mosaic blur over the content of the marked portion),alternative text (e.g., a message warning that the content in the markedportion is private, as shown in FIG. 6B), or a blank area.

FIGS. 7A-7B are flow diagrams illustrating a process 700 fortransmitting a document to a destination system for storage, accordingto some embodiments. Each of the operations shown in FIGS. 7A-7B maycorrespond to instructions stored in a computer memory or computerreadable storage medium. In some embodiments, process 700 may beimplemented at a privacy proxy system 106.

The privacy proxy system receives a first data transmission from a firstclient system (702). The first data transmission includes a firstdocument, which has one or more portions marked as private. A firstdocument may be sent from a client system (e.g., client system 102),with the eventual destination of the document being a destination system(e.g., server system 114). The first document (the “original document”has one or more content portions (or the entirety of the document)marked as requiring more restrictive security or privacy (e.g., may beread by only certain users). The privacy proxy system, as anintermediary between the client system and the destination system,receives the document in a data transmission from the client system.

The privacy proxy system encrypts the marked portions of the firstdocument using a key (704). The document encryption/decryption module206 encrypts the portions of the first document that are marked asprivate using any suitable key-based encryption algorithm or cipher anda key 108 appropriate for the encryption algorithm/cipher. The result ofthe encryption operation is a partially encrypted version of the firstdocument (which may be called the “partially encrypted” first document),where the marked portions of the first document are encrypted and theremainder of the first document that is not marked as private (the“unmarked remainder”) is not encrypted.

In some embodiments, the first data transmission is encrypted (706), andprior to encrypting the marked portions, the privacy proxy systemdecrypts the first data transmission to access the first document (708).The first data transmission may be an encrypted transmission inaccordance with a secure communication protocol (e.g., SSL, TLS). Afterreceiving the first data transmission but prior to encrypting the markedportions, the privacy proxy system extracts the first document from thefirst data transmission by decrypting the first data transmission inaccordance with the secure communication protocol, in order to accessthe first document for the operation of encrypting the marked portions.

The privacy proxy system sends a second data transmission to adestination system (710). The second data transmission includes a seconddocument, which includes the encrypted marked portions of the firstdocument and the unencrypted unmarked remainder of the first document.In some embodiments, the second document is the partially encryptedfirst document; the second document is the first document, with themarked portions encrypted. In some other embodiments, the seconddocument is a new document generated anew from the encrypted markedportions of the first document and the unencrypted, unmarked remainderof the first document. The unmarked remainder is not encrypted beyondany encryption applied to the second data transmission as a whole (e.g.,encryption applied to secure the second data transmission in accordancewith a secure communication protocol, such as SSL or TLS).

The key needed to decrypt the encrypted marked portions is unavailableto the destination system (712). In some embodiments, the key used toencrypt the marked portions is also not made available, nor provided, tothe destination system. Without the decryption key, the destinationsystem cannot easily decrypt the encrypted marked portions of the seconddocument. The destination system may process the second document basedon the unencrypted portions (i.e., the unmarked remainder), such asindexing the second document for searching based on the contents of theunmarked remainder or matching a search query to content in the unmarkedremainder. An advantage of restricting the availability, to thedestination system, of the key needed to decrypt the encrypted markedportions is that security and/or privacy of the marked portions are lesslikely to be compromised by attacks on the destination system.

The second document is stored at the destination system (714). At thedestination system, the second document may be stored in non-volatilememory (e.g., hard disk drive, solid state memory, non-volatile memoryassociated with a database connected to the destination system).

In some embodiments, the privacy proxy system sends the second datatransmission to the destination system as an encrypted data transmission(716). The second data transmission is sent as an encrypted transmissionin accordance with a secure communication protocol (e.g., SSL, TLS). Thedestination system extracts the second document from the second datatransmission by decrypting the second data transmission in accordancewith the secure communication protocol, in order to access the seconddocument for processing.

In some embodiments, the privacy proxy system receives a third datatransmission from the destination system (718). The third datatransmission includes a third document, which includes the encryptedmarked portions and the remainder of the first document that is notmarked as private. In some embodiments, the third document is the seconddocument or a copy of the second document, which, as described above,includes the encrypted marked portions and the unencrypted, unmarkedremainder. In some embodiments, the third document is the partiallyencrypted first document or a copy of the partially encrypted firstdocument.

The privacy proxy system decrypts the encrypted marked portions usingthe key (724). The privacy proxy system uses an appropriate decryptionkey and the decryption counterpart of the encryption algorithm/cipher todecrypt the encrypted marked portions in the third document. The resultof the decryption operation is the original document, with the markedportions and the unmarked portions unencrypted.

In some embodiments, the third data transmission is encrypted (720), andprior to decrypting the encrypting the marked portions, the privacyproxy system decrypts the third data transmission to access the thirddocument (722). The third data transmission may be an encryptedtransmission in accordance with a secure communication protocol (e.g.,SSL, TLS). After receiving the third data transmission but prior todecrypting the encrypted marked portions, the privacy proxy systemextracts the third document from the third data transmission bydecrypting the third data transmission in accordance with the securecommunication protocol, in order to access the third document for theoperation of decrypting the encrypted marked portions.

In some embodiments, the privacy proxy system sends a fourth datatransmission to a second client system, the fourth data transmissionincluding a fourth document, which includes the decrypted markedportions and the remainder of the first document that is not marked asprivate (726). The fourth document is displayed at the second clientsystem (728). In some embodiments, the fourth document is the firstdocument or a copy of the first document, reconstituted from the thirddocument. For example, the first document may be reconstituted from thethird document by decrypting the encrypted marked portions in the thirddocument (which, in some embodiments, is the partially encrypted firstdocument). The privacy proxy system sends the fourth document to thesecond client system for displaying at the second client system.Depending on the rights of the user who requested the document, thefourth document may be displayed entirely in the clear or with themarked portions obscured or replaced with other content, examples ofwhich are described above with reference to FIGS. 6A-6B

In some embodiments, the privacy proxy system sends the fourth datatransmission to the second client system as an encrypted datatransmission (730). The fourth data transmission may be sent as anencrypted transmission in accordance with a secure communicationprotocol (e.g., SSL, TLS). The second client system extracts the fourthdocument from the fourth data transmission by decrypting the fourth datatransmission in accordance with the secure communication protocol, inorder to access the fourth document for displaying. By sending thefourth data transmission as an encrypted data transmission, the fourthdocument is protected from compromise by an attack on the fourth datatransmission.

In some embodiments, the privacy proxy system sends a request to thedestination system for the second document in response to a request froma client system for the first document (i.e., the original document).The client system (e.g., the second client system) sending the requestfor the original document may be the same client system as, or differentclient system from, the client system that sent the first datatransmission (e.g., the first client system). In response to the requestfrom the privacy proxy system, the destination system sends the thirddata transmission, with the third document, to the privacy proxy system.

In some embodiments, step 724 (decrypting the encrypted marked portions)is skipped if the appropriate decryption key is not available for thethird document, and the fourth data transmission includes the thirddocument instead of the fourth document. At step 728, the thirddocument, which includes the encrypted marked portions and the remainderof the first document that is not marked as private, is displayed at theclient system instead of the fourth document.

FIGS. 8A-8B are flow diagrams illustrating a process 800 fortransmitting a document, according to some embodiments. Each of theoperations shown in FIGS. 8A-8B may correspond to instructions stored ina computer memory or computer readable storage medium. In someembodiments, process 800 may be implemented at a client system 102.

The client system generates a document, including marking one or moreportions of the document as private (802). In some embodiments, theclient system marks the one or more portions of the document as privatein accordance with user input (804). At the client system, a user mayinput content into an application (e.g., application 104) or open anexisting document in the application, and mark one or more portions ofthe input content or of the existing document content as private. Theapplication generates a document that includes the input content or thecontent of the existing document, with the portions marked by the usermarked as private.

The client system sends the document to an intermediary system fortransmission to a destination system (806), where, prior to the documentbeing transmitted to the destination system, the marked portions of thedocument are encrypted by the intermediary system using a key that isunavailable to the destination system (808). For example, the clientsystem sends the document to a privacy proxy system 106, and the privacyproxy system 106 sends the document to a server system 114. The markedportions of the document is encrypted by the intermediary system using akey 108 that is not made available to the server system 114 prior tobeing sent to the server system 114.

In some embodiments, the client system receives a copy of the documentfrom the intermediary system (810), where the copy of the document istransmitted from the destination system to the intermediary system priorto the receiving, the copy of the document transmitted from thedestination system include the encrypted marked portions (812). Inresponse to a request from the client system for the document, theprivacy proxy system retrieves a partially encrypted documentcorresponding to the requested document from the server system.

In some embodiments, the encrypted marked portions in the copy of thedocument are decrypted by the intermediary system prior to the receiving(814). The privacy proxy system decrypts the partially encrypteddocument to reconstitute a copy of the requested document. The copy ofthe requested document is sent by the privacy proxy system and receivedby the client system.

In some embodiments, the client system displays the copy of the document(816). The copy of the document, including the marked portions, may bedisplayed in the clear (as in FIG. 6A, for example) by the client systemto the requesting user, if the user is one that has the requisite rightsto read the marked portions. If the user does not have rights to readthe marked portions, when displaying the marked portions, theapplication 104 may obscure or replace the marked portions on thedisplay with one or replacement elements or other content (as in FIG.6B, for example).

In some embodiments, the client system receives a copy of the documentfrom the intermediary system (818), where the copy of the document istransmitted from the destination system to the intermediary system priorto the receiving, the copy of the document transmitted from thedestination system include the encrypted marked portions (820). Inresponse to a request from the client system for the document, theprivacy proxy system retrieves a partially encrypted documentcorresponding to the requested document from the server system.

In some embodiments, the encrypted marked portions remain encrypted(822). The privacy proxy system maintains the encryption on thepartially encrypted document. The partially encrypted document is sentby the privacy proxy system and received by the client system.

In some embodiments, the client system displays the copy of thedocument, including displaying one or more replacement elements in placeof the encrypted marked portions (824). The marked portions, as theyremain encrypted, are not displayed in the clear. The application 104may obscure or replace the marked portions on the display with one ormore replacement elements or other content (e.g., alternative content604-B, FIG. 6B).

In some embodiments, the replacement element or other content isalternative text, obscured text, a graphic, or a blank area (826). Themarked portions, when they are not displayed in the clear, may bereplaced with one or more replacement elements, on the display, fordisplay purposes. The replacement may be alternative text (e.g., amessage informing the user that the content in the marked portions isprivate), obscured text (the text in the marked portions blacked out orobscured by a mosaic effect, to resemble redacted text), a blank area,or a graphic (e.g., an icon giving visual indication that the markedportions are restricted).

FIG. 9 is a flow diagram illustrating a process 900 for indexing adocument for searching, according to some embodiments. Each of theoperations shown in FIG. 9 may correspond to instructions stored in acomputer memory or computer readable storage medium. In someembodiments, process 900 may be implemented at a server system 114.

A document is received by the server system (902). The received documentincludes one or more encrypted portions and an unencrypted remainder.Thus, portions of the document are encrypted (and thus those portionsappear to be, before decryption, random data) and the remainder of thedocument is in the clear. In some embodiments, the received document isa partially encrypted document that originated from a client system 102through an intermediary system (e.g., a privacy proxy system 106) and ispartially encrypted by the intermediary system (e.g., the partiallyencrypted document described above with reference to FIGS. 7A-7B, 8A,8B). The original document that yielded the partially encrypted documenthas one or more portions marked as private and an unmarked remainder.The portions marked as private correspond to the encrypted portions inthe received document, and the unmarked remainder corresponds to theunencrypted remainder in the received document.

The document is indexed based only on the unencrypted remainder of thedocument (904). The received document is indexed for searching, but theindexing for the document is based on the unencrypted portions and notat all on the encrypted portions; the encrypted portions appear asrandom data and thus are not a useful basis for indexing. Further, a keyfor decrypting the received document is not available to nor provided tothe server system 114. Thus, the server system cannot easily decrypt theencrypted portions of the received document to access the contents.Thus, the indexing of the document is based on the unencryptedremainder, and the server system 114 attempt to match received searchqueries to the unencrypted remainder.

In some embodiments, the privacy proxy system 106, when encrypting adocument 111, may add additional metadata to the document. For example,the privacy proxy system 106 may add metadata indicating the version ofthe key used to encrypt the document. As another example, the privacyproxy system 106 may add additional rights metadata (e.g.,corporate-wide special rights policies) to the document.

As described above, the application 104 is configured to enable a userto mark discrete portions of a document as private. In some embodiments,a marked document includes metadata indicating the portions that aremarked, where the metadata follows a protocol. The application 104and/or the plug-in 202 are configured to understand and follow theprotocol with respect to generating the data indicating the markedportions and determining whether a document has marked portions and thelocations of those marked portions within the document. The privacyproxy system 106 is configured to understand and follow the protocol, sothat the encryption and decryption can be limited to the markedportions. In some embodiments, the server system 106 is also configuredto understand and follow the protocol, so that the server system 106knows that a document includes marked portions and avoid those markedportions when processing the document (e.g., when indexing thedocument).

In some embodiments, the privacy proxy system 106 has a list or databaseof server systems 106 that are configured to understand and follow theprotocol described above. The privacy proxy system 106 may sendpartially encrypted documents only to the server systems 106 in thelist/database. Additionally, even if a partially encrypted document issent to a server system 106 that does not follow the protocol describedabove, the privacy of the partially encrypted document is stillprotected because the destination server system 106 does not have thekey needed to decrypt the document.

It should be appreciated that the encryption and/or decryption keys(e.g., key(s) 108) described above may refer to one or more keys. Forexample, in some embodiments, a key is used for both encryption anddecryption. In some other embodiments, one key is used for encryptionand another for decryption. Further, multiple keys, including differentversions, may be used for encryption and/or decryption using onealgorithm or multiple different algorithms (e.g., a set of keys forencryption/decryption using one algorithm and another set of keys forencryption/decryption using another algorithm). The appropriate key thatis used in the operations described above should be, to one of ordinaryskill in the art, apparent from the context.

Although some of various drawings illustrate a number of logical stagesin a particular order, stages which are not order dependent may bereordered and other stages may be combined or broken out. While somereordering or other groupings are specifically mentioned, others will beobvious to those of ordinary skill in the art and so do not present anexhaustive list of alternatives. Moreover, it should be recognized thatthe stages could be implemented in hardware, firmware, software or anycombination thereof.

The foregoing description, for purpose of explanation, has beendescribed with reference to specific embodiments. The embodiments werechosen and described in order to best explain the principles of theinvention and its practical applications, to thereby enable othersskilled in the art to best utilize the invention and various embodimentswith various modifications as are suited to the particular usescontemplated. However, the illustrative discussions above are notintended to be exhaustive or to limit the invention to the precise formsdisclosed. Many modifications and variations are possible in view of theabove teachings.

What is claimed is:
 1. A method comprising: at a privacy proxy computersystem having one or more processors and memory storing one or moreprograms configured for execution by the one or more processors:coupling to a destination system and a plurality of client systems overone or more communication networks, wherein the privacy proxy system isconfigured to protect from the destination system privacy of dataassociated with the plurality of client systems, the plurality of clientsystems including a first client system; receiving a first datatransmission from the first client system, wherein the first datatransmission includes a first file, and the first file has one or moreunencrypted portions that are marked as private; encrypting the markedportions of the first file; associating the encrypted marked portions ofthe first file with a decryption key that is available at the privacyproxy computer system and not provided to the destination system; andwhile retaining the decryption key within the privacy proxy computersystem, sending a second data transmission to the destination systemwithout the decryption key, wherein the second data transmissionincludes a second file, and the second file includes the encryptedmarked portions of the first file and a remainder of the first file thatis not marked as private, wherein the second file is stored at thedestination system.
 2. The method of claim 1, wherein the first datatransmission is encrypted, the method further comprising, prior toencrypting the marked portions: decrypting the first data transmissionto access the first file.
 3. The method of claim 1, wherein sending thesecond data transmission includes: sending the second data transmissionas an encrypted data transmission.
 4. The method of claim 1, furthercomprising: receiving a third data transmission from the destinationsystem, the third data transmission including a third file, the thirdfile including the encrypted marked portions and the remainder of thefirst file that is not marked as private; decrypting the encryptedmarked portions using the decryption key; and sending a fourth datatransmission to a second client system, the fourth data transmissionincluding a fourth file, the fourth file including the decrypted markedportions and the remainder of the first file that is not marked asprivate; wherein the fourth file is displayed at the second clientsystem.
 5. The method of claim 4, wherein the third data transmission isencrypted, the method further comprising, prior to decrypting theencrypted marked portions: decrypting the third data transmission toaccess the third file.
 6. The method of claim 4, wherein sending thefourth data transmission includes: sending the fourth data transmissionas an encrypted data transmission.
 7. A privacy proxy computer system,comprising: one or more processing units; and memory storing one or moreprograms configured for execution by the one or more processing units,wherein the one or more programs include instructions for: coupling to adestination system and a plurality of client systems over one or morecommunication networks, wherein the privacy proxy system is configuredto protect from the destination system privacy of data associated withthe plurality of client systems, the plurality of client systemsincluding a first client system; receiving a first data transmissionfrom the first client system, wherein the first data transmissionincludes a first file, and the first file has one or more unencryptedportions that are marked as private; encrypting the marked portions ofthe first file; associating the encrypted marked portions of the firstfile with a decryption key that is available at the privacy proxycomputer system and not provided to the destination system; and whileretaining the decryption key within the privacy proxy computer system,sending a second data transmission to the destination system without thedecryption key, wherein the second data transmission includes a secondfile, and the second file includes the encrypted marked portions of thefirst file and a remainder of the first file that is not marked asprivate, wherein the second file is stored at the destination system. 8.The computer system of claim 7, wherein the first data transmission isencrypted, and wherein the one or more programs further includeinstructions for: prior to encrypting the marked portions, decryptingthe first data transmission to access the first file.
 9. The computersystem of claim 7, wherein the one or more programs further includeinstructions for: sending the second data transmission as an encrypteddata transmission.
 10. The computer system of claim 7, wherein the oneor more programs further include instructions for: receiving a thirddata transmission from the destination system, the third datatransmission including a third file, the third file including theencrypted marked portions and the remainder of the first file that isnot marked as private; decrypting the encrypted marked portions usingthe decryption key; and sending a fourth data transmission to a secondclient system, the fourth data transmission including a fourth file, thefourth file including the decrypted marked portions and the remainder ofthe first file that is not marked as private; wherein the fourth file isdisplayed at the second client system.
 11. The computer system of claim10, wherein the third data transmission is encrypted, and wherein theone or more programs further include instructions for: prior todecrypting the encrypted marked portions, decrypting the third datatransmission to access the third file.
 12. The computer system of claim10, wherein the one or more programs further include instructions for:sending the fourth data transmission as an encrypted data transmission.13. A non-transitory computer readable storage medium storing one ormore programs configured for execution by a privacy proxy computersystem, the one or more programs comprising instructions for: couplingto a destination system and a plurality of client systems over one ormore communication networks, wherein the privacy proxy system isconfigured to protect from the destination system privacy of dataassociated with the plurality of client systems, the plurality of clientsystems including a first client system; receiving a first datatransmission from the first client system, wherein the first datatransmission includes a first file, and the first file has one or moreunencrypted portions that are marked as private; encrypting the markedportions of the first file; associating the encrypted marked portions ofthe first file with a decryption key that is available at the privacyproxy computer system and not provided to the destination system; andwhile retaining the decryption key within the privacy proxy computersystem, sending a second data transmission to the destination systemwithout the decryption key, wherein the second data transmissionincludes a second file, and the second file includes the encryptedmarked portions of the first file and a remainder of the first file thatis not marked as private, wherein the second file is stored at thedestination system.
 14. The computer readable storage medium of claim13, wherein the first data transmission is encrypted, and wherein theone or more programs further comprise instructions for: prior toencrypting the marked portions, decrypting the first data transmissionto access the first file.
 15. The computer readable storage medium ofclaim 13, wherein the one or more programs further comprise instructionsfor: sending the second data transmission as an encrypted datatransmission.
 16. The computer readable storage medium of claim 13,wherein the one or more programs further comprise instructions for:receiving a third data transmission from the destination system, thethird data transmission including a third file, the third file includingthe encrypted marked portions and the remainder of the first file thatis not marked as private; decrypting the encrypted marked portions usingthe decryption key; and sending a fourth data transmission to a secondclient system, the fourth data transmission including a fourth file, thefourth file including the decrypted marked portions and the remainder ofthe first file that is not marked as private; wherein the fourth file isdisplayed at the second client system.
 17. The computer readable storagemedium of claim 16, wherein the third data transmission is encrypted,and wherein the one or more programs further comprise instructions for:prior to decrypting the encrypted marked portions, decrypting the thirddata transmission to access the third file.
 18. The computer readablestorage medium of claim 16, wherein the one or more programs furthercomprise instructions for: sending the fourth data transmission as anencrypted data transmission.